Gasoline dispensing apparatus



y 1944- E. E. EICKMEYER Erm. 2,354,249

GASOLINE DISPENSING APPARATUS Original Filed March 22, 1938 10 Sheets-Sheet 2 flttarne VJ y 25, 1944- E. E. EICKMEYER ETAL 2,354,249

GASOLINE DISPENSING APPARATUS Original Filed March 22, 1938 10 Sheets-Sheet 3 flu/enter: CARL [It/(MEYER J ANTI/MY G. Ham/4 Th July 25, 1944. E. E. EICKMEY ER ETAL I GASOLINE DISPENSING APPARATUS Original Filed March 22, 1938 10 Sheets-Sheet 4 J H J r V wmA a t -n m m mu A y m n r 3 July 25, 1944. E. E. EICKMEYER ETAL GASOLINE bISPENSING APPARATUS "Original Filed March 22, 1938 10 Sheets-Sheet 5 fizz/anions .EARL [/C/(MEYER ANTHONY 6. Hd/PVA Th A atom eys July 25, 1944.

E. E. EICKMEYER El'AL GASOLINE DISPENSING APPARATUS Original Filed March 22, 1938 10 Sheets-Sheet 6 A/v THO/V y 6. HOR VA Th A ttarn (y:

25, 1944- E. E. EICKMEYER ETAL 2,354,249

GASOLINE DISPENSING APPARATUS Original Filed March 22, 1938 10 Sheets-Sheet 7 JIWM mm. E. EICKMEYER ANTHONY 6. non vain,

. July 25, 1944. I E. E. EICKMEYER ETAL 2,354,249

' GASOLINE DISPENSING APPARATUS Original Filed March 22, 1938 10 Sheets-Sheet 8 ljZl. E 5 5 176 24 1 E //////////4 I/ E A m m T\\\\\ j v ".174 105 E v 244 an E. fly ANT/1?); c t/1 9 war/ J g\ Attorney:

y 1944 E. E. EICKMEYER ETAL 2,354,249

GASOLINE DISPENSING APPARATUS Original Filed March 22, 1938 l0 Sheets-Sheet 9 fnzren for: EARL E. E/CKHEYER ANTHONY G. HORVATH Attorneys July 1944- E. E. EICKMEYER ETAL GASOLINE DISPENSING APPARATUS Original Filed March 22, 1938 10 Sheets-Sheet 1O .fnuentars H 5 MW W M m M Z maq [Y A 5m M H 9 y 4 mama .lulyzfi, 1944 2.354s .oasouna nrsrmsnvd mana'rus Earl E. Eiohneyer and Anthony G. Horvath, Dayton, Ohio, a-ignorl to The Dayton Pump and Manufacturing Company, M

' corporation of Ohio Ohio, 1

Original appiication blarch 2:, ms. Serial No. 197,524. Divided and ihh application March 20, m2, Serial 110.480,!

s cum. (cl. ere-u) This invention relates to gasoline dispensing pumps, and is a division of my copending plication Serial No. 197,524, died March 22, 1938.

It is the object of our invention to provide a gasoline dispensing pump in which a visual indicator, a recorder and printer are operated by a meter through which the gasoline passes as it is being dispensed.

It is a further obiect to provide for such an arrangement of the printer that the ticket is printed and delivered upon the placing of the hose nozzle upon its supporting hook prior to the return to zero of the visual indicator so that" the customer can compare the printed amount on his ticket with the maximum indication on the visual indicator.

It is a further object to provide for an interlocked manually operable means for returning the visual indicator to zero, together with the printer wheels, after the ticket has been printed and issued subsequent to the hanging of the nozzle on the hook.

It is an object of the invention to provide a support or hook for the hose nozzle which is so arranged that when the nozzle is removed and this hook is moved upwardly, the condition of the, visual indicator and its associated printer wheels will be indicated by the taking of an impression of such registration on the ticket to be issued; and upon the completion of the dispensing operation and the downward movement of said hook, then the final printing will take place of the number of gallons visually indicated as having I been dispensed.

It is a further object to provide means of severing the printed ticket.

It is an object to provide means of printing on the ticket various advertising matter, station identifications and the like.

It is a further object of this invention to provide means associated with said hook for connecting a motor to an electric circuit to operate a pump which supplies the gasoline to the meter.

It is an object of this invention to provide the printer wheels on the same shafts as the indicator wheels so that they will turn together to insure that the visual indication and the printing registration are identical.

Referring to the drawings:

Figure 1 is a front elevation of a pump embodying this invention with the front wall thereof broken away to show the motor, pump and meter. Figure 2 is a side elevation of the printing and indicating mechanism boxes with the cover reanism box. This view is taken on the line 2-2 of Figure 3.

Figure 8 is a front elevation .with the cover partially broken away from the indicator and the parts of the indicator wheels broken away to show the totalizer mechanism. This view also shows in front elevation, partially in section, the printer mechanism and its relationship to the visual indicator.

Figure 4 is a detailed enlarged view of the hose supporting hook and its connections to the motor switch and the printer mechanism.

Figure 5 is a top plan view, partially in section, showing the visual indicator and printer mech- Flgure 6 is'an exploded, isometric view with the type wheels moved to one side and shown in detail, illustrating the feedinl, printing and shearing mechanism of the printer.

Figure 'l is an isometric view, partially in secing rollers and associated gearing and a portion I of the vertically moving actuator bar. The parts are in the position where the reset handle has returned the feed rollers to their initial feeding position, but the gearing still has some distance to move in order to return to the initial position. This gearing returns to its initial position and, when it does so, it is in the position shown in Figure 6, just prior to a new cycle of dispensing gasoline.

Figure 9 is a side elevation, in detail, of the vertically moving shifter rod, on which are cams for actuating the halves of a fork, that serve to control the printing mechanism. This figure shows the parts as the bar is moving downwardly when the hook has been taken of! the handle at the initial stages of dispensing gasoline so as to bring about the initial printing operation which consists of pressing the carrier, having the platen on one end, against the paper and carbon sheet to take an impression from the type wheels. Figure 9 shows the forked end of this carrier for the platen.

Figure 10 is a similar view showing the cam and bar in a lower position, with one of the pivoted fingers on the fork elevated.

Figure 11 is a top plan view of the detail assembly of the chopper mechanism with the sheet in section and with the supporting walls of the moved to display the interior of the printer mechframe in section.

Figure 5.

on the line ll-ll of Fig- Figure 14 is a section um 15.

Figure 15 is an elevation looking at Figure 14 from the righthand side to show how the W110 wheels are supported.

Figure 18 is a section on the line lt-i', looking in the direction of the arrows in Figure 11.

Figure 17 is a section on'the line ll-ll of Figure 20, showing the position of the paper strip, the carbon sheet, the feed rolls, the type immeasion wheels, the platen and the chopping mechanism.

Figure 18 is a detail enlarged view of the cam chopper spring release.

Figurelil isadetailviewofFigurel8,looking in the direction of Figure 18 from the righthand side thereof.

Figure 20 is a section on the line "-2. of Figure 2, looking in the direction of the arrows, showing the relative position of the paper feed rolls, printer wheels, chopper and associated mechanism.

Figure 21 is a section on the line 2l-2i of Figure 2, which shows a sliding support for the pivot of the linkage system actuated by the hose hook for actuating the vertically reciprocable bar and associated mechanism.

Figure 22 is a section on the line 22-22 of Figure 11, looking in the direction of the arrows, showing in detail the :position of the control mechanism for the ticket chopper. The parts in Figure 22 are in the position of rest of the machine prior to its initial operation.

Figure 23 is a similar view to Figure 22, showing the parts in the position when the vertical bar moves down and the chopper controlling cam has forced the locking pawl out of locking position so far as the spring is concerned, but this also locks the spring again through placing another type of locking pawl into engagement with a square peg.

Figure 24 is a similar view showing the parts in position with the spring released, the cut-off mechanism in motion and the cut-oi! eccentric at the extreme of its throw. The vertical bar is also locked against return movement to insure that the cut-ofl operation will be completed without a downward movement'of the bar. This prevents a further unwinding of the spring before it can be re-wound. The parts in this position are in cutting position and the ticket is now being cut off. This is indicated by the eccentric being at its maximum toward the left.

Figure 25 is a similar view showing the parts in position so that the locking pawl is being moved into locking position which it initially had, as in Figure 22. This first locking pawl locks the spring that does the cutting against movement.

Figure 26 is a similar view showing the parts in position, where the bar is about to be unlocked.

Figure 28 is an exploded isometric view showasses ingthechoppermechanismpartially Theoartsarepicmredinthefitresfipoai m. priortoanyaetuation.

1"igure29isaviewofatypicalticketafter printing. Referringtothe drawingaindetaiLiisabaae ofa gasoline dispensing cabinet having sidewalls fandfrontandrearwallsi. llounteduponthh baseuponlegslisapmnplandamotorl. The motor isprovided with a switch I that isopened andcloaedbyarodlthatisconnectedtoahose handle- 0 pivoted at II. This hose handle is adapted to support the free end of the dispensing hose thatis shown at H.

Thegasolinepumpedbythepumplpasaea upwardly through the pipe I! through the trap ll, meter ll, pipe II and thence to thehose Ii. The meter I4 is provided with a driven shaft II which performs the multiple function of actuating the visual indicator, the printing wheels and paper feeding mechanism. It also actuates a total gallon counter that is associated with the visual indicator and actuates the shield that is intermittently interposed over the face of the indicator wheels.

Visual indicator mechanism The drive shaft ll actuates the bevel gear I! which meshes with the bevel pinion II on the shaft II. This, in turn, actuates the bevel gears II and 2| and the gears 22 and II whic turn the counter wheels 2|. These counter wheels are reset by the reset device II, the exact nature of which forms no part of this invention.

The shaft ll carries a pinion It which meshes with the indicator gear 21 mounted upon the shaft 2|. This gear meshes with gear II on the shaft ll rotating on that shaft and also rotating the indicator wheel II which is connected to the gear 29. The indicator wheel II has on its opposite face a gear I2 also freely mounted on the shaft ll. Gear 32 then drives gear I! which is mounted upon a sleeve N on the shaft 2|. The other end of this sleeve 84 is connected to the gear II which drives the gear I. freely mounted on the shaft 31. The gear ll is connected to the indicator drum Ila so that drums 3| and Ila turn together.

Returning to gear 32, there is mounted on one face thereof a disk ll which has a pair of transfer teeth marked that intermittently engage, once each revolution of drum Ii, with the pin ion II to move that pinion sufficiently to cause the next drum 4 I, through gear 4 la, to move onetenth of a revolution. The drum ll, in turn, has a gear 42, a plate I! and transfer teeth 44 ening with the pinion I which, in turn, meshes with gear 40 that rotates the drum ll one-tenth of a revolution.

Drum 41 has a gear II which meshes with the gear as on the sleeve II. This sleeve carries a gear II which engages with a gear I! on the drum Bl, so that drums II and 41 travel together. Likewise, the gear I of drum ll meshes with the gear II on the sleeve II which carries a gear I that engages with the gear 51 of the intermediate drum II to actuate that drum so that drums ll and II travel together.

In order to explain the connection between the gear Ila and the drum Ii, refer to views in Figurea 51 to 54 inclusive. The drum II is free upon the shaft ll. Likewise, the gear a is free upon the shaft ll. When the meter is driving the gearing to rotate the indicator wheels such as 4|, the gear 4 la is moving. It carries the ratchet insecticn.

llwhooeteeth llareinclinedinone direction. These teeth are engaged in one direction by a pin II mounted upon a swinging lever 62 that is pivoted at 60 on the boss 64 on the inside-of the drum 4|. The movement of the gear, therefore, causes the drum, through this ratchet and pinion construction, to move with it. This is during the movement of the drum for indication purposes.

The lever 62 has connected at its free end at 66 a helical spring 66, the other end of which is connected to a boss 61 'on the drum H. The boss 64 has pivoted on it a pawl 60 that is springpressed by the spring 60 with its shoulder 10 into engagement with a notch 1| in the shaft 00. This comes into play only when the mechanism is being reset to zero by manual operation, hereinafter disclosed, so that the pawl 66 then en- R ges with the notch 1| and the shaft 00. As the reset mechanism operates the shaft 00, this serves to carry the drum 4i in the direction to return it to zero for a new indication. In this manner, th wheels are cleared of their indication and are brought back to zero registration through the reset mechanism. The spring 60 is mounted upon a boss 664 on the inside of the drum 4i.

Printing mechanism The printer wheels I36, I06 and I01 respectively indicate, reading from right to left, fractions, units and tens, as'wlll be more fully seen in Figure 6. Type wheel I36 is mounted upon the sleeve I which is connected to the drum 01a. The type wheel I06 is mounted on the sleeve Ill and is connected to the drum II. The type wheel I01 is mounted on the sleeve I40 which, in turn, is connected to the drum 60. Therefore, these type wheels rotate with these drums so that the setting or actuation of these drums will correspondingly set or actuate these type wheels.

The paper strip is wound into a roll I and is mounted upon the axle I42. The strip itself is designated I43 and is fed between the two feeding rollers I44 and I46. The roller I44 is a resilient roller and the roller I46 is a hard roller. The roller I45 carries advertising or identifying data to be printed on the strip. As hereinafter described, this particular printing operation (other than the numerical) takes place when the return-to-zero mechanism feeds the paper strip preparatory to a new cycle of operations so that these designations are printed prior to the initial printing operation of the status of the visual indicator at the beginning of the dispensing operation.

There is also fed between the rollers I44 and I45, in engagement with the paper strip, a carbon strip or carbon ribbon I46. This is a continuous ribbon that passes over a guide I41, and thence over the type wheels. It is guided over the type wheels by the guide I40. It passes between the face of the type wheels and the paper strip I43. On the other side of this paper strip is the platen I49 that forces the paper and carbon strip against the type wheels. The carbon strip then passes around the guide I60, guide I6I, guide I62,

III on the inside of the roller I46. The purpose of this loose connection is to permit of the advancing of the roller I46 a limited distance before the shaft I66 turns.

The haft I66 carries a pinion gear I66 whichmeshes with a gear I60. These gears I66 and I60 turn freely on the respective shafts I66 and I6I. Gear I6! is connected by the rivet or rod connection I62 to the roller, I46 to turn with it. The gear I60 is connected by a rod or rivet I60 to the roller I44 and to the cam lock I64 by the rod or rivet I66.

This cam lock consists of a cam body having a nose I66 and a cut-away portion I61. The nose engages with a bell crank pawl having one end designated I60. This pawl is pivoted at I10 upon the vertical reciprocabie bar slide III. This pawl I60 is forced in one direction by the spring I12 mounted'at I10 upon the bar III. The successive positions of this pawl are shown in Figures 6, 7 and 8.

The actuation of these rollers I44 and I46 is eflected in the first place by the bar "I through the engagement with the cam disk I64 of the pawl I60 with the cam nose I66. This takes place when the bar moves upwardly upon the return of the hose to the hook and the downward movement of the hook. The hook 0 is connected -to this bar "I through the lever I02, shaft I00,

and link I04.

The pivot pin I044: connects the link I04 to the bottom of the bar I". This pin also is a guide which projects between the spaced guide members I14 and I16. This is shown in elevation in 85 Figure 2 and in a detail section in Figure 21.

These guide members I14 and I16 are carried upon the enclosing housing for the printer, generally designated I16. The purpose of this movement of the bar, so far as the feeding of the paper is concerned, is to move the paper to its guide I63, guide I64, and guide I55, back to the feed rolls.

Returning to the roller I46, it will be observed final printing position from the initial printing position so that it can receive it final impression from the type wheels I06, I06 and I31 to indicate the same amount that appears upon the visual indicator at the end of the dispensing operation. Thereafter the chopping or severing operation takes place for severing the ticket so printed. This will be hereinafter explained.

After the severing operation takes place, there is a further movement of the paper through these rollers I44 and I45 in order to place it in position for the initial printing operation at the beginning of a new cycle'of operations. This positioning of the paper at this time is a part of the resetting operation and a part of, and subsequent to, the cut-oil operation. Therefore, it is necessary to describe the operation of this mechanism by now referring to the zero resetting mechanism which performs the several functions of bringing the type wheels I36, I36 and I31 and the several indicator drums 3|, H, 41, 60, 66 and 31a to their zero positions, and which also serves to cause the paper strip to be fed to its new position after a portion of it had been out, upon which the previous printing operations have been performed.

The zero resetting mechanism is actuated by the handle I26 which is mounted upon the shaft I30. The shaft I30 carries the gear I11 which is pinned to the shaft. Shaft I30 is known as the reset shaft. This gear meshes with another gear I18 which is carried on the shaft I19 loosely. In practice this is simply a screw bolt forming a short axle. Gear I16, loosely mounted on I19, is connected by rivets or pins I60 to a companion fragmentary gear I9I that is also loosely mounted on I19. This gear is provided with teeth I92, a portion of which are cut away at I99. It meshes with the pinion gear I94 that is pinned to the shaft I99. It is connected by rivets or pins I99 to the cam follower disk I99 having a nose I91 carrying a cam follower roller I99. This roller follows the periphery I99 of the cam disk I99 loosely mounted on the shaft I19 and connected by pins I9I to thegear I9I.. This cam I99 is provided with a low point I92 which receives the roller I99 and the nose I91 of the disk I99.

When the handle I29 is rotated, it rotates the shaft I90, the gear I", the gear I19, the fragmentary gear I9I, the pinion I94, the shaft I99, the roller I45, the gears I99 and I99 and the roller I44. It also rotates the disk I99. and the cam disk I90. The result of these movements is to advance the paper to a position for its initial printing operation for the next succeeding cycle of printing which will be initiated by the upward movement of the hose hook 9 when the new dispensing operation is started. The function of I92 is merely to accommodate the roller I99 and its nose I91 due to the revolution of several parts.

It will be observed that, after the gear I94 has been given a complete revolution by the fragmentary gear teeth I92, the shaft I99 continues to revolve and, during that period, the cut-away portion I89 of the disk I9I clears the teeth of I94 so that it is not rotated, and at the same time, the roller I89 can roll freely upon the surface I99 of the cam I90. This, therefore, permits the continued operation of the handle I29 and shaft I30 for other purposes after having performed a the primary feeding function of the initial feeding of the paper by the rollers I44 and I49.

We now come to the imprinting of the final impression upon the paper of the ultimate amount of liquid dispensed, as shown by the type wheels. This printing operation takes place by reason of the movement of the platen I49.

This platen is carried upon a carrier bar I99. The bar is provided with a yoke at its right-hand end having a pair of spaced arms I94 and I95 to form the yoke. There is pivoted on either side of this yoke, pivoted yoke fingers I96 and I91. The finger I99 is drawn upwardly by the spring I98 that is connected to it at one end and to the stationary yoke arm I94 at the other. A similar spring I98a holds the pivotal yoke finger I91 downwardly.

These yoke fingers are operated by cam I99 carried on the loop 200 of the bar Ill and by the cam 20I carried on the face of a second loop 202 which is also carried by the bar I II. One of these cams, such as cam I99, engages with the nose I96a when the bar III is moving downwardly. The purpose of this is to fiex the plate spring 209 which is supported at 204 so as to store energy in that spring and the helical spring 205 to push the carrier I99 with its platen I49 against the paper carbon strip and type wheels.

When the cam I99 passes by the nose I99a, the carrier I99 is released and this snap action brings about the printing operation which is the initial printing operation. It will be recalled that the bar "I is moved for this purpose by the upward movement of a hook 9 after removing the hose at the starting of the dispensin operation.

The final printing operation takes place when the bar III moves upwardly when the hose hook 9 is pulled downwardly at the conclusion of a dispensing operation. In this instance, the cam 29I operates in the same manner upon the piv- -shaft I99.

oted finger I91 for storing energy in the springs 299 and 299 which, when released by the movement of the nose I9'Ia from the cm "I, results in another printing operation which is the final printing operation. Thus, both printing operations are performed through the reciprocation of the bar III, which reciprocation takes place as the result of actuation of the hose hook 9.

when one finger is operative, the other can slide over its cam. This is shown by Figures 9 and 10, which illustrate such an action when the bar III is moving downwardly.

Chopper The ticket. as it descends, is fed into a guide 299. It drops into this guide when it is severed. This severing operation is P rformed by a knife 29'! which is drawn back with its carrier 209 by a connecting link 299 connected to an eccentric disk 2I9 mounted on the shaft I90. As hereinafter described, energy is stored in the spring which, when released, causes the carrier 299 to carry the knife 291 forwardly to shear the paper strip to form the ticket.

It will be recalled that the shaft I99 is a reset shaft turned by the handle I29. The winding of the spring 2 is effected by the reset shaft I99 when it is turned back by the handle I29 to zero resetting position. The release of this spring tension to cause the chopping operation is by the bar III when it makes its upward movement as a result of hanging the hose on the hook 9.

With particular reference to the storage of the energy in spring 2, the shaft I is connected by a pin 2I2 to a hub 2I9 which carries at one end the stub shaft 2, upon which the handle I29 is directly mounted. It is also pinned to a disk 2I9 that, in turn, is connected by the stud M9 to the spring 2I I. This spring is wound on a drum 2I'I mounted on the shaft I90. This is a loose mounting. The other end of the spring 2II is connected at III to a stud 2I9 on a disk 220. This disk is also loosely mounted upon the This disk, in turn, is connected by a pin 22I to the eccentric 2I9. This eccentric is loosely mounted on the shaft I99.

The eccentric H0 is connected by the pin 222 to a disk 229 mounted on a hub 224 that is loosely mounted on the shaft I90. The other end of this hub 224 carries a disk 229 which is provided with a cross pin 229 having a projecting end 221 so that it projects completely through the disk 229 and on either side thereof. The end 221 of this pin engages with the nose 229 of a pawl 229 which is mounted pivotally by the screw 299 upon the stud 29 I. This pawl is provided with a locking nose 292 and with a pin 299.

Returning to the disk 229: it is provided with a square pin 294 adapted to engage it with a shoulder 299 in a pivoted lever 299 carried on the stud 29I. This stud carries a. transverse locking finger 291 having a locking nose 299 that is adapted to engage with the notch 299 in the bar I II. Returning to the shaft I99: there is mounted on that shaft, loosely, a finger 240. This finger is adapted to engage the two pins 2 and 242 mounted in the face of the gear III. This gear is pinned by the pin Illa to the shaft I90.

The wall I19 supports the shaft I99 and also the boss 249 that acts as a support for the screwthreaded shoulder stud 29I. The reciprocating bar I'II carries a pin 244 which serves to engage with the lever 299 to disconnect it at its other end from the square pin 294 when the bar III is moving upwardly. This is the means of releasing asses the mechanism so that the spring 2| i can unwind and cause the iefthand movement of the carrier 2" to press the chopper blade 201 against the paper strip to sever a ticket.

The lever 22. is urged into engagement, normally, before it is unlocked, with the bar 224 by the spring 228a which is mounted upon the stud 2st and is connected at one end to the lever 22., and at its other end to the locking pawl 221. It performs the further function of causing the nose 2" to engage with the pawl 22. in the bar ill to maintain it against downward movement. The purpose of this is to prevent an undesired amount of unwinding of the spring 2 and to limit the unwinding to that sufllcient to bring about a chopping operation so that it will not become completely unwound and so that it will be held against complete unwinding until it can be re-wound.

The several positions of this mechanism during these several operations just described are shown in Figures 22 to 27. Figure 22 shows the parts at rest,at the beginning of a dispensing operation. Figure 23 shows the parts getting ready to be moved to unlocking position to permit the spring to unwind. In this position, the bar I'll is going down so that the cam 24! will engage with the pin 222 to move the pawl 229 and its nose 222 out of the path of the pin 221.

It will be noted that, in Figures 22 and 23, the nose 2" is out of engagement with the shoulder as so that this downward movement of the bar Ill can take place. This nose is held out by the pin 22..

Turning to the next view, Figure 24, when the bar I'H has moved upwardly, then the parts are shown with the bar ili locked against downward movement by the nose 2" being in the notch 229. The parts are shown, in Figure 24, in the extreme cutting position.

In Figure 25, the parts are shown with the pawl 232 being engaged with the pin 221 to restore 228 and 22s to their position shown in Figure 28.

Figure 26 shows the parts at rest after the chopping operation and ready for the resetting operation.

Figure 27 shows them in re-winding position.

Sequence of operations The following is a summary of the sequence of operations:

The pump is assumed to be at rest with the hook carrying the hose handle; the motor is stationary and the current is cut off. The mechanism has been returned to zero. The visual indicator and the type wheels indicate zero.

The operator lifts the hose nozzle off the hook l and pushes up the hook. He thereby closes the switch I by actuating the rod I. The pump starts to deliver gas through the pipe I2 and meter ll. The gas will fiow through the meter it if the hose nozzle is open. This will rotate the shaft is, turning the indicator wheels and the printer wheels.

The action of the operator in lifting the hook 2 results in printing the zero designation upon the strip, which designation is also the condition of the visual indicator. The strip has already received printing from the hard roller ill of the advertising and other identifying data. This was accomplished when the return-to-zero mechanism actuated by the handle I22 fed the paper strip ready for the initial printing operation, at which time the chopper spring 2 was also wound.

The dispensing operation continues for the amount of gas desired. The operator then hangs the nozzle on the hook l, pulling the hook down. This causes the bar ill to so up and results in three things happening. The paper strip is fed one step so as to receive the final printing operation, which final printing operation is caused by the downward movement of the hook I. Then, the further movement upwardly of the bar I'll results in the release of the chopper spring 2 and the actuation of the chopper 201 that seven the ticket that drops through the chute 2", all of which takes place before the mechanism returns to zero.

Then, the operator grasps the return-to-zero handle l2! and rotates its shaft Ill, again storing up energy in the spring 2| I, feeding the paper strip to a new printing position and printing the advertising matter upon it. This also returns the indicator and the type wheels to zero.

If this is not done, and the operator attempts to again lift the hose from the hook I and repeat a cycle of operations, then the guard over the visual indicator wheels will drop and cover them to prevent him from finding out how much gas he is dispensing to the new customer.

This assumes that, in order to start the second illegal dispensing operation, he has pushed up hard enough on the hook 0 to cause the bar ill to descend and break the hook 228, which would otherwise lock it. It will be understood that you cannot disengage 228 from 222, a shoulder on lli, until you have returned the mechanism back to zero. this machine provides a triple protection against illegal dispensing of gasoline: the first is the hook 228, and the second is the shutter release mechanism. Additionally, the third safeguard is that, as the paper strip has not been refed for a new printing operation, because there has been no zero resetting, there would be no ticket issued to be printed upon and the second customer would not get a ticket which he would properly demand.

It will be understood that we desire to comprehend within our invention such modifications as come within the scope of the claims and the invention.

We claim:

1. Ina gasoline dispensing apparatus, means responsive to the fiow of gasoline dispensed for setting up printing wheels on printing mechanism operatively associated therewith, means to cause said printing mechanism to print initial and final readings on a strip, means for feeding said strip through said printing mechanism, a hose hook and means for feeding the paper strip to a position so as to receive the final printing operation comprising a reciprocating member, a rotary member actuated by said reciprocating member for actuating the paper strip feed, means for causing a final printing operation connected to be actuated by said hose hook whereby when said hose nozzle is placed on said hook said reciprocating member and rotary member are actuated to cause the feeding of said paper strip followed by th final printing operation thereof and zero resetting means adapted to again operate said strip feeding means and printing mechanism.

2. In a gasoline dispensing apparatus, means responsive to the fiow of gasoline dispensed for setting up printing wheels on printing mechanism operatively associated therewith, means to cause said printing mechanism to print initial and final readings on a paper strip, means for feeding said strip through said printing mechanism, a hose nook and means for feeding the paper strip to a position so as to receive the final printing operation comprising a reciprocating member, a rotarymember actuated by said reciprocating member for actuating the paper feed. means for causing a final printing operation connected to be actuated by said hose hook whereby when said hose nos-ale is placed on said hook said reciprocating member and rotary member are actuated to cause the feeding of said paper strip followed by the final printing operation thereof, ratchet means connecting said reciprocating member and rotary member,.and sero resetting means adapted to again operate said paper strip feeding means and printing mechanism 3. In a gasoline dispensing apparatus, means responsive, to the flow of gasoline dispensed for setting up printing wheels on printing mechanism operatively associated therewith, means to cause said printing mechanism to print initial and final readings on a paper strip. means for feeding said asses" strip through said printing mechanism, a hose hookand meansfor feedingthepaperstriptca poaitionsoastoreoeivethefinaiprintingoperation comprising a reciprocating member, a rotary member actuated by said reciprocating member for actuating the paper feed, means for causing a flnai printing operation connected to be actuated by said hose hook whereby when said hose penis is placed on said hook said reciprocating member and rotary member are actuated to cause the feeding of said paper strip followed by the final printing operation thereof, and sero resetting means adapted to again operate said paper strip feeding means and printins mechanism. said first named means including means connected to said hose hook whereby when said hose nor-ale is liftedoffsaid hcsehookthe initiaireadingwili be printed on said-paper strip provided said sero re-setting means has been operated following a go dispensing operation.

EARL E. E1 ANTHONY G. HORVAI'H. 

